Talk:Gauss–Codazzi equations

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Don't want to step on any tows. Luckily the article was new, and not much developed:

In differential geometry, the Mainardi-Codazzi equations relate the first fundamental form and the second fundamental form of a surface. Given a set of coefficents of the first and second fundamental forms, the Mainardi-Codazzi equations provide a simple method for determining whether a surface exists with that particular set of coefficients. The first fundamental form makes its appearance in terms of the Christoffel symbols:

${\displaystyle e_{v}-f_{u}=e\Gamma _{12}^{1}+f(\Gamma _{12}^{2}-\Gamma _{11}^{1})-g\Gamma _{11}^{2}}$

${\displaystyle f_{v}-g_{u}=e\Gamma _{22}^{1}+f(\Gamma _{22}^{2}-\Gamma _{12}^{1})-g\Gamma _{12}^{2}}$

Regards, Silly rabbit 00:43, 28 May 2007 (UTC)[reply]

Dear Rabbit, No problem. I didn't know an article already existed. I added the classical equations to this article. Jhausauer 01:51, 28 May 2007 (UTC)[reply]